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Designation: E527 − 12
Standard Practice for
Numbering Metals and Alloys in the Unified Numbering
System (UNS)1
This standard is issued under the fixed designation E527; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the U.S. Department of Defense.
1. Scope*
Materials Division calls for “repetitive procurement by at least two users.”
Thus, while no universal definition for usage criteria is established, the
UNS numbers are intended to identify metals and alloys that are generally
in regular production and use. A UNS number will not ordinarily be issued
for a material that has just been conceived or that is still in only
experimental trial.
1.1 This practice (Note 1) covers a unified numbering
system (UNS) for metals and alloys that have a “commercial
standing” (see Note 2), and covers the procedure by which
such numbers are assigned. Section 2 describes the system of
alphanumeric designations or “numbers” established for each
family of metals and alloys. Section 3 outlines the organization
established for administering the system. Section 5 describes
the procedure for requesting number assignment to metals and
alloys for which UNS numbers have not previously been
assigned.
2. Description of Numbers (or Codes) Established for
Metals and Alloys
2.1 The UNS establishes 18 series of numbers for metals
and alloys, as shown in Table 1. Each UNS number consists of
a single letter-prefix followed by five digits. In most cases the
letter is suggestive of the family of metals identified; for
example, A for aluminum, P for precious metals, and S for
stainless steels.
NOTE 1—UNS designations are not to be used for metals and alloys that
are not registered under the system described herein, or for any metal or
alloy whose composition differs from those registered.
NOTE 2—The terms “commercial standing,” “production usage,” and
other similar terms are intended to apply to metals and alloys in active
commercial production and use, although the actual amount of such use
will depend, among other things, upon the type of metals and alloys
involved and their application.
The various standardizing organizations involved with the individual
industries apply their own established criteria to define the status of a
metal or alloy in terms of when a UNS designation number will be
assigned. For instance, ASTM Committee A01 requires details of heat
analysis, mechanical properties, and processing requirements for addition
of a new grade or alloy to its specifications. The Copper Development
Association requires that the material be “in commercial use (without
tonnage limits);” the Aluminum Association requires that the alloy be
“offered for sale (not necessarily in commercial use);” the SAE Aerospace
2.2 Whereas some of the digits in certain UNS number
groups have special assigned meaning, each series is independent of the others in such significance; this practice permits
greater flexibility and avoids complicated and lengthy UNS
numbers.
NOTE 3—This arrangement of alphanumeric six-character numbers is a
compromise between the thinking that identification numbers should
indicate many characteristics of the material, and the belief that numbers
should be short and uncomplicated to define only the chemical composition and leaving the other properties to the specifications involved.
2.3 Wherever feasible, identification “numbers” from previous systems are incorporated into the UNS numbers. For
example: carbon steel, originally identified by “American Iron
and Steel Institute (AISI) 1020,” is covered by “UNS G10200,”
and free cutting brass, presently identified by “Copper Development Association (CDA) C36000,” is covered by
“UNS C36000.” Table 2 shows the secondary division of some
primary series of numbers.
1
This practice is under the jurisdiction of ASTM Committee A01 on Steel,
Stainless Steel and Related Alloys and is the direct responsibility of Subcommittee
A01.91 on Editorial.
Current edition approved Oct. 15, 2012. Published November 2012. Originally
approved in 1974. Last previous edition approved in 2007 as E527–07. DOI:
10.1520/E0527-12.
*A Summary of Changes section appears at the end of this standard
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
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TABLE 1 Primary Series of Numbers
A00001–A99999
C00001–C99999
E00001–E99999
L00001–L99999
M00001–M99999
N00001–N99999
P00001–P99999
R00001–R99999
Z00001–Z99999
D00001–D99999
F00001–F99999
G00001–G99999
H00001–H99999
J00001–J99999
K00001–K99999
S00001–S99999
T00001–T99999
W00001–W99999
Nonferrous Metals and Alloys
aluminum and aluminum alloys
copper and copper alloys
rare earth and rare earth-like metals and alloys (18
items; see Table 2)
low melting metals and alloys (15 items; see Table 2)
miscellaneous nonferrous metals and alloys (12 items;
see Table 2)
nickel and nickel alloys
precious metals and alloys (8 items; see Table 2)
reactive and refractory metals and alloys (14 items; see
Table 2)
zinc and zinc alloys
Ferrous Metals and Alloys
specified mechanical properties steels
cast irons
carbon and alloy steels
H-steels
cast steels (except tool steels)
miscellaneous steels and ferrous alloys
heat and corrosion resistant (stainless) steels
tool steels
welding filler metals, covered and tubular electrodes,
classified by weld deposit composition (see Table 2)
TABLE 2 Secondary Division of Some Series of Numbers
E00000–E00999
E01000–E20999
E21000–E45999
E46000–E47999
E48000–E49999
E50000–E51999
E52000–E55999
E56000–E57999
E58000–E67999
E68000–E68999
E69000–E73999
E74000–E77999
E78000–E78999
E79000–E82999
E83000–E84999
E85000–E86999
E87000–E87999
E88000–E89999
E90000–E99999
L00001–L00999
L01001–L01999
L02001–L02999
L03001–L03999
L04001–L04999
L06001–L06999
L07001–L07999
L08001–L08999
L09001–L09999
L10001–L10999
L11001–L11999
L12001–L12999
L13001–L13999
L50001–L59999
M00001–M00999
M01001–M01999
M02001–M02999
M03001–M03999
M04001–M04999
M05001–M05999
M06001–M06999
M07001–M07999
M08001–M08999
E00001–E99999 Rare Earth and Rare Earth-Like Metals and Alloys
actinium
cerium
mixed rare earthsA
dysprosium
erbium
europium
gadolinium
holmium
lanthanum
lutetium
neodymium
praseodymium
promethium
samarium
scandium
terbium
thulium
ytterbium
yttrium
L00001–L99999 Low-Melting Metals and Alloys
bismuth
cadmium
cesium
gallium
indium
lithium
mercury
potassium
rubidium
selenium
sodium
thallium
tin
lead
M00001–M99999 Miscellaneous Nonferrous Metals and Alloys
antimony
arsenic
barium
calcium
germanium
plutonium
strontium
tellurium
uranium
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TABLE 2
Continued
M10001–M19999
M20001–M29999
M30001–M39999
P00001–P00999
P01001–P01999
P02001–P02999
P03001–P03999
P04001–P04999
P05001–P05999
P06001–P06999
P07001–P07999
R01001–R01999
R02001–R02999
R03001–R03999
R04001–R04999
R05001–R05999
R06001–R06999
R07001–R07999
R08001–R08999
R10001–R19999
R20001–R29999
R30001–R39999
R40001–R49999
R50001–R59999
R60001–R69999
W00001–W09999
W10000–W19999
W20000–W29999
W30000–W39999
W40000–W49999
W50000–W59999
W60000–W69999
W70000–W79999
W80000–W89999
magnesium
manganese
silicon
P00001–P99999 Precious Metals and Alloys
gold
iridium
osmium
palladium
platinum
rhodium
ruthenium
silver
R00001–R99999 Reactive and Refractory Metals and Alloys
boron
hafnium
molybdenum
niobium (columbium)
tantalum
thorium
tungsten
vanadium
beryllium
chromium
cobalt
rhenium
titanium
zirconium
W00001–W99999 Welding Filler Metals Classified by Weld Deposit Composition
carbon steel with no significant alloying elements
manganese-molybdenum low alloy steels
nickel low alloy steels
austenitic stainless steels
ferritic stainless steels
chromiun low alloy steels
copper base alloys
surfacing alloys
nickel base alloys
A
Alloys in which the rare earths are used in the ratio of their natural occurrence (that is, unseparated rare earths). In this mixture, cerium is the most abundant of the rare
earth elements.
3. Organization for Administering the UNS for Metals
and Alloys
2.4 Welding filler metals fall into two general categories:
those whose compositions are determined by the filler metal
analysis (e.g. solid bare wire or rods and cast rods) and those
whose composition is determined by the weld deposit analysis
(e.g. covered electrodes, flux-cored and other composite wire
electrodes). The latter are assigned to a primary series with the
letter W as shown in Table 1. The solid bare wire and rods
continue to be assigned in the established number series
according to their composition.
3.1 The organization for administering the UNS consists of
the following:
3.1.1 Advisory Board—The Advisory Board has approximately 20 volunteer members who are affiliated with major
producing and using industries, trade associations, government
agencies, and standards societies, and who have extensive
experience with identification, classification, and specification
of materials. The Board is the administrative arm of SAE and
ASTM on all matters pertaining to the UNS. It coordinates
thinking on the format of each series of numbers and the
administration of each by selected experts. It sets up ground
rules for determining eligibility of any material for a UNS
number, for requesting such numbers, and for appealing
unfavorable rulings. It is the final referee on matters of
disagreement between requesters and assigners.
3.1.2 Several Number-Assigning Offıces— UNS number
assigners for certain materials are set up at trade associations
which have successfully administered their own numbering
systems; for other materials, assigners are located at offices of
NOTE 4—The assignment of UNS designations rests solely with the
industry organizations listed herin. Readers are not to make their own
assignments of numbers from such listings, as this may create a risk of
duplication and conflict.
2.5 ASTM and SAE periodically publish up-to-date listings
of all UNS numbers assigned to specific metals and alloys,
with appropriate reference information on each.2 Many trade
associations also publish similar listings related to materials of
primary interest to their organizations.
2
Request the most recent version of ASTM DS 56 and SAE HS 1086, Unified
Numbering System for Metals and Alloys, (a joint ASTM–SAE publication), PCN
05-056001-01.
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each decision to be based on current knowledge of the needs of
a specific industry of producers and users.
3.1.4 Staff at SAE—Staff members at SAE maintain master
listings of all UNS numbers assigned.
3.1.5 In addition, established SAE and ASTM committees
which normally deal with standards and specifications for the
materials covered by the UNS, and other knowledgeable
persons, are called upon by the Advisory Board for advice
when considering appeals of unfavorable rulings in the matter
of UNS number assignments.
SAE. Each of these assigners has the responsibility for administering a specific series of numbers, as shown in Table 3. Each
considers requests for assignment of new UNS numbers, and
informs applicants of the action taken. Trade association UNS
number assigners report immediately to SAE details of each
number assignment. Assigners collaborate with designated
consultants when considering requests for assignment of new
numbers.
3.1.3 Corps of Volunteer Consultants— Consultants are
selected by the Advisory Board to provide expert knowledge of
a specific field of materials. Since they are utilized primarily by
the Board and the SAE number assigners, they are not listed in
this recommended practice. At the request of the SAE number
assigner, a consultant considers a request for a new number in
the light of the ground rules established for the material
involved, decides whether a new number is justified, and
informs the SAE number assigner accordingly. This utilization
of experts (consultants and number assigners) is intended to
ensure prompt and fair consideration of all requests. It permits
4. Significance and Use
4.1 The UNS provides a means of correlating many nationally used numbering systems currently administered by
societies, trade associations, and individual users and producers of metals and alloys, thereby avoiding confusion caused by
use of more than one identification number for the same
material; and by the opposite situation of having the same
number assigned to two or more entirely different materials. It
TABLE 3 Number Assigners and Areas of Responsibility
The Aluminum Association, Inc.
1425 Wilson Boulevard, Suite 600
Arlington, VA 22209
Attention: Office for Unified Numbering System for Metals
Telephone: (703) 358-2960
www.aluminum.org
Aluminum and Aluminum Alloys
UNS Number Series: A00001–A99999
American Welding Society
550 N. W. LeJeune Road
P.O. Box 351040
Miami, FL 33126
Attention: Office for Unified Numbering System for Metals
Telephone: (305) 443-9353
www.aws.org
Welding Filler Metals
UNS Number Series: W00001–W99999
Copper Development Association
260 Madison Avenue, 16th Floor
New York, NY 10016
Attention: Office for Unified Numbering System for Metals
Telephone: (212) 251-7200
www.copper.org
Copper and Copper Alloys
UNS Number Series: C00001–C99999
Society of Automotive Engineers
400 Commonwealth Drive
Warrendale, PA 15096
Attention: Office for Unified Numbering System for Metals
Telephone: (724) 776-4841
www.sae.org
Carbon and Alloy Steels
UNS Number Series: G00001–G99999
H-Steels
UNS Number Series: H00001–H99999
Tool Steels
UNS Number Series: T00001–T99999
Miscellaneous Nonferrous Metals and Alloys
UNS Number Series: M00001–M99999
Cast Steels
UNS Number Series: J00001–J99999
Heat and Corrosion Resistant (Stainless) Steels
UNS Number Series: S00001–S99999
Zinc and Zinc Alloys
UNS Number Series: Z00001–Z99999
Precious Metals and Alloys
UNS Number Series: P00001–P99999
Cast Irons
UNS Number Series: F00001–F99999
Nickel and Nickel Alloys
UNS Number Series: N00001–N99999
Steels Specified by Mechanical Properties
UNS Number Series: D00001–D99999
Reactive and Refractory Metals and Alloys
UNS Number Series: R00001–R99999
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5.4 Requests for new numbers shall be submitted on “Application for UNS Number Assignment” forms (see Fig. 1 and
Fig. 2). Copies of these are available from any UNS numberassigning office (see Table 3) or facsimiles may be made of the
one herein.
also provides the uniformity necessary for efficient indexing,
record keeping, data storage and retrieval, and cross referencing.
4.2 A UNS number is not in itself a specification, since it
establishes no requirements for form, condition, quality, etc. It
is a unified identification of metals and alloys for which
controlling limits have been established in specifications published elsewhere.
5.5 All instructions on the printed application form should
be read carefully and all information provided as indicated.
NOTE 7—The application form is designed to serve also as a data input
sheet to facilitate processing each request through to final print-out of the
data on electronic data-processing equipment and to minimize transcription errors at number-assigning offices and data-processing centers.
NOTE 5—Organizations that issue specifications should report to
appropriate UNS number-assigning offices (3.1.2) any specification
changes that affect descriptions shown in published UNS listings.
5. Procedure for Requesting Number Assignment to
Metals and Alloys Not Already Covered by UNS
Numbers (or Codes)
5.1 UNS numbers are assigned only to metals and alloys
that have a commercial standing (as defined in Note 2).
5.6 To further assist in assigning UNS numbers, the requester is encouraged to suggest a possible UNS number in
each request, giving appropriate consideration to any existing
number presently used by a trade association, standards
society, producer, or user.
5.2 The need for a new number should always be verified by
determining from the latest complete listing of already assigned UNS numbers that a usable number is or is not
available.
5.7 Each completed application form shall be sent to the
UNS number-assigning office having responsibility for the
series of numbers that appears to most closely relate to the
material described on the form (see Table 3).
NOTE 6—In assigning UNS numbers, and consequently in searching
complete listings of numbers, the predominant element of the metal or
alloy usually determines the prefix letter of the series to which it is
assigned. In certain instances where no one element predominates,
arbitrary decisions are made as to what prefix letter to use, depending on
the producing industry and other factors.
6. Keywords
6.1 aluminum alloy numbering system; aluminum alloy
UNS numbering; cast iron numbering system; cast iron UNS
numbering; copper alloy numbering system; copper alloy UNS
numbering; ferrous alloys numbering system; ferrous alloys
UNS numbering; nickel alloy numbering system; nickel alloy
UNS numbering; reactive metals and alloys numbering system;
reactive metals and alloys UNS numbering; refractory metals
and alloys numbering system; refractory metals and alloys
UNS numbering; steel alloy numbering system; steel alloy
UNS numbering; stainless steel alloy numbering system;
stainless steel alloy UNS numbering; unified numbering system; UNS metal and alloy numbering system; weld filler metal
numbering system; weld filler metal numbering; welding
electrode numbering system; welding electrode UNS
numbering
5.3 For a new UNS number to be assigned, the composition
(or other properties, as applicable) must be significantly
different from that of any metal or alloy which has already been
assigned a UNS number.
5.3.1 In the case of metals or alloys that are normally
identified or specified by chemical composition, the chemical
composition limits must be reported.
5.3.2 In the case of metals or alloys that are normally
identified or specified by mechanical (or other) properties, such
properties and limits thereof must be reported. Only those
chemical elements and limits, if any, which are significant in
defining such materials need be reported.
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NOTE 1—Reverse side of Fig. 1 is located on the next page.
FIG. 1 Sample Application Form.
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General:
Before attempting to complete this form, the applicant should be thoroughly familiar with the objectives of the UNS and the “ground rules” for assigning numbers, as
stated in SAE J 1086 and ASTM E527, Section 5.
Material Description:
Identify the base element; the single alloying element that constitutes 50 % or more of the total alloy content; other distinguishing predominant characteristics (such
as “casting”); and common or generic names if any (such as “ounce metal” or “Waspalloy”). When no single element makes up 50 % or more of the total alloy
content, list in deceasing order of abundance the two alloying elements that together constitute the largest portion of the total alloy contents; except that if no two elements make up at least 50 % of the total alloy content, list the three most abundant, and so on. Instead of “iron,” use “steel” to identify the base element of those
iron-low-carbon alloys commonly known as steels.
When mechanical properties or physical characteristics are the primary defining criteria and chemical composition is secondary or nonsignificant, enter such properties and characteristics with the appropriate values or limits for each.
Suggested UNS No.:
While applicant’s suggestion may or may not be the one finally assigned, it will assist proper identification of the material by the UNS Number Assigner.
Chemical Composition:
Enter limits such as 0.13–0.18 (not .13–.18 or 0.13 to 0.18) 1.5 max, 0.040 min, and balance. In space designated “other,” enter information such as “Each 0.05 max,
Total 0.15 max,” and “Sn plus Pb 2.0 min.”
Cross References:
Letter-symbols listed indicated widely known trade associations and standards-issuing organizations. Enter after appropriate symbols any known specification numbers or identification numbers issued by such groups to cover material equivalent to, similar to, or closely resembling the subject material.
Examples: SAE J 404 (50B44), AISI 415, ASTM A638 (660)
In space designated “other,” enter any pertinent numbers issued by groups not listed above. In these instances, the full name and address of the issuing group shall
be included.
SUBMIT COMPLETED FORM TO APPROPRIATE UNS NUMBER ASSIGNER,
AS LISTED IN SAE J 1086 AND ASTM E527
FIG. 2 Sample Application Form (Reverse Side).
SUMMARY OF CHANGES
Committee A01 has identified the location of selected changes to this practice since the last issue, E527 –07,
that may impact the use of this practice. (Approved October 15, 2012)
(1) Added “EN” and “ISO” to list of cross reference organizations shown in Fig. 1.
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